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Bradley Dulee BIOC430 S17

2017-01-24T19:34:52Z

Bdulee: /* References (2 minimum) */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 8 hours per week
: section 01 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production===

===General Information===
:Advisor: Laura Moore
:Previous research student collaborators: Tyler Bailey

===Proposal===
It is the goal of this project to focus on increasing the tolerance of ''Escherichia coli'' against the harmful byproducts of lignocellulosic biomass pretreatment methods for use in biofuel production.
===Instruments to be used===
:- I2400 incubator shaker (37°C)
:- Allegra 25R Centrifuge (4°C)
:- Bio Rad MicroPulser Electroporator
:- Multiwell FC Microwell Plate Reader
:- Nanodrop

===References===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee BIOC430 S17

2017-01-24T19:34:21Z

Bdulee: /* Research Times */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 8 hours per week
: section 01 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production===

===General Information===
:Advisor: Laura Moore
:Previous research student collaborators: Tyler Bailey

===Proposal===
It is the goal of this project to focus on increasing the tolerance of ''Escherichia coli'' against the harmful byproducts of lignocellulosic biomass pretreatment methods for use in biofuel production.
===Instruments to be used===
:- I2400 incubator shaker (37°C)
:- Allegra 25R Centrifuge (4°C)
:- Bio Rad MicroPulser Electroporator
:- Multiwell FC Microwell Plate Reader
:- Nanodrop

===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee BIOC430 S17

2017-01-24T19:33:50Z

Bdulee:

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
M-F - 8 hours per week
: section 01 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production===

===General Information===
:Advisor: Laura Moore
:Previous research student collaborators: Tyler Bailey

===Proposal===
It is the goal of this project to focus on increasing the tolerance of ''Escherichia coli'' against the harmful byproducts of lignocellulosic biomass pretreatment methods for use in biofuel production.
===Instruments to be used===
:- I2400 incubator shaker (37°C)
:- Allegra 25R Centrifuge (4°C)
:- Bio Rad MicroPulser Electroporator
:- Multiwell FC Microwell Plate Reader
:- Nanodrop

===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee BIOC430 S17

2017-01-24T19:31:43Z

Bdulee: Created page with "Chemistry/Biochemistry Research 430 :Fall 2016 :Brad Dulee :Senior Biochemistry Major ==Research Times== TBD - 4 hours per week : section 01 = 0.25 credit = 4 hours per week...."

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production===

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===
It is the goal of this project to focus on increasing the tolerance of ''Escherichia coli'' against the harmful byproducts of lignocellulosic biomass pretreatment methods for use in biofuel production.
===Instruments to be used===
:- I2400 incubator shaker (37°C)
:- Allegra 25R Centrifuge (4°C)
:- Bio Rad MicroPulser Electroporator
:- Multiwell FC Microwell Plate Reader
:- Nanodrop

===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Thermal Cardio Images

2016-09-22T22:22:49Z

Bdulee: /* Conclusions */

Thermal Cardio Images
:Brad Dulee
:Sept. 22, 2016
:Professor Brad Sturgeon

==Image 1==
Pre-Cardio
: [[File:Pre-Cardio Thermal Image - Brad Dulee.png]]

==Image 2==
Post-Cardio
: [[File:Post-Cardio Thermal Image - Brad Dulee.png]]

==Conclusions==
Two differences were noticed between thermal images taken before and after ~2 minutes of stair cardio:
:1. Overall body temperature increased. This is noted by the increase in green coloring throughout the bulk of the body. This is consistent with the observation that my body temperature felt warmer after my cardio workout along with increased respirations and heart rate.
:2. Decreased temperature was noticed at extremities and head of body. This is noted by the decreased red coloring around the head and neck. This would be consistent with the method of cooling used by the human body: sweat. I observed that I felt chills in my extremities, head, and neck when I entered the cold building covered in sweat. In general, this conclusion relates to a functional ability to cool my body after exercise.

Thermal Cardio Images

2016-09-22T22:22:38Z

Bdulee: /* Conclusions */

Thermal Cardio Images
:Brad Dulee
:Sept. 22, 2016
:Professor Brad Sturgeon

==Image 1==
Pre-Cardio
: [[File:Pre-Cardio Thermal Image - Brad Dulee.png]]

==Image 2==
Post-Cardio
: [[File:Post-Cardio Thermal Image - Brad Dulee.png]]

==Conclusions==
Two differences were noticed between thermal images taken before and after ~2 minutes of stair cardio:
:1. Overall body temperature increased. This is noted by the increase in green coloring throughout the bulk of the body. This is consistent with the observation that my body temperature felt warmer after my cardio workout along with increased respirations and heart rate.
::2. Decreased temperature was noticed at extremities and head of body. This is noted by the decreased red coloring around the head and neck. This would be consistent with the method of cooling used by the human body: sweat. I observed that I felt chills in my extremities, head, and neck when I entered the cold building covered in sweat. In general, this conclusion relates to a functional ability to cool my body after exercise.

Thermal Cardio Images

2016-09-22T22:22:22Z

Bdulee: /* Conclusions */

Thermal Cardio Images

2016-09-22T22:12:55Z

Bdulee: /* Image 2 */

Thermal Cardio Images

2016-09-22T22:12:06Z

Bdulee: /* Image 1 */

File:Post-Cardio Thermal Image - Brad Dulee.png

2016-09-22T22:10:14Z

Bdulee: Post-Cardio Thermal Image - Brad Dulee

Post-Cardio Thermal Image - Brad Dulee

File:Pre-Cardio Thermal Image - Brad Dulee.png

2016-09-22T22:09:29Z

Bdulee: Pre-Cardio Thermal Image - Brad Dulee

Pre-Cardio Thermal Image - Brad Dulee

Thermal Cardio Images

2016-09-22T22:05:24Z

Bdulee:

Thermal Cardio Images
:Brad Dulee
:Sept. 22, 2016
:Professor Brad Sturgeon

==Image 1==
Pre-Cardio
: section 01 = 0.25 credit = 4 hours per week.

==Image 2==
Post-Cardio
: section 01 = 0.25 credit = 4 hours per week.

==Conclusions==
Post-Cardio
: section 01 = 0.25 credit = 4 hours per week.

Thermal Cardio Images

2016-09-22T22:04:25Z

Bdulee:

Thermal Cardio Images
:Brad Dulee
:Sept. 22, 2016
:Professor Brad Sturgeon

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

Thermal Cardio Images

2016-09-22T22:02:52Z

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

Bradley Dulee Chem430 F16

2016-09-13T18:20:17Z

Bdulee: /* Instruments to be used */

Bradley Dulee Chem430 F16

2016-09-13T18:13:22Z

Bdulee:

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production===

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===
It is the goal of this project to focus on increasing the tolerance of ''Escherichia coli'' against the harmful byproducts of lignocellulosic biomass pretreatment methods for use in biofuel production.
===Instruments to be used===
:-
===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-28T17:00:51Z

Bdulee: /* References (2 minimum) */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Enter Project Title here===
Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===

===Instruments to be used===

===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.

2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.

3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.

4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.

5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.

6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-28T17:00:22Z

Bdulee: /* References (2 minimum) */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Enter Project Title here===
Increasing Growth-Inhibitory Compound Tolerance in ''Escherichia coli'' For Use in Biofuel Production

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===

===Instruments to be used===

===References (2 minimum)===
1. Mills, T. Y.; Sandoval, N. R.; Gill, R. T. Cellulosic hydrolysate toxicity and tolerance mechanisms in "Escherichia coli". "Biotechnology for Biofuels" 2009, 2:26.
2. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furfural Tolerance Due to Overexpression of NADH-Dependent Oxidoreductase FucO in "Escherichia coli" Strains Engineered for the Production of Ethanol and Lactate. "Applied and Environment Biology" 2011, 77:15, 5132-5140.
3. Richardson,T. L.; Harner, N. K.; Bajwa, P. K.; Trevors, J. T.; Lee, H. Approaches to Deal with Toxic Inhibitors During Fermentation of Lignocellulosic Substrates. "ACS Symposium Series". 2011, 1067, Chapter 7, 171-202.
4. Olsson, L.; Hahn-Hägerdal, B.; Fermentation of Lignocellulosic Hydrosylates for Ethanol Production. "Enzyme and Microbial Technology". 1996, 18, 312-331.
5. Wang, X.; Miller, E. N.; Yomano, L. P.; Zhang, X.; Shanmugam, K. T.; Ingram, L. O. Increased Furan Tolerance in "Escherichia Coli" Due to a Cryptic ucpA Gene. "Applied and Environmental Microbiology". 2012, 78:7, 2452-2455.
6. Weil, J. R.; Dien, B.; Bothast, R.; Hendrickson, R.; Mosier, N. S.; Ladisch, M. R. Removal of Fermentation Inhibitors Formed during Pretreatment of Biomass by Polymeric Adsorbents. "Ind. Eng. Chem." Res. 2002, 41:24, 6132-6138.

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-28T16:57:51Z

Bdulee: /* Enter Project Title here */

Bradley Dulee Chem430 F16

2016-08-28T16:57:33Z

Bdulee: /* Enter Project Title here */

Bradley Dulee Chem430 F16

2016-08-28T16:56:50Z

Bdulee: /* Research Times */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===Enter Project Title here===

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===

===Instruments to be used===

===References (2 minimum)===

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-26T20:38:32Z

Bdulee: /* General Information */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.
: section 02 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Enter Project Title here===

===General Information===
:Advisor: Laura Moore
:Other research student collaborators: Tyler Bailey

===Proposal===

===Instruments to be used===

===References (2 minimum)===

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-26T20:38:06Z

Bdulee: /* Research pledge */

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.
: section 02 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Enter Project Title here===

===General Information===
:Advisor: here
:Other research student collaborators: here
:Other Research Collaborators: here

===Proposal===

===Instruments to be used===

===References (2 minimum)===

===Research pledge===
I, Brad Dulee, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Bradley Dulee Chem430 F16

2016-08-26T20:37:12Z

Chemistry/Biochemistry Research 430
:Fall 2016
:Brad Dulee
:Senior Biochemistry Major

==Research Times==
TBD - 4 hours per week
: section 01 = 0.25 credit = 4 hours per week.
: section 02 = 0.50 credit = 8 hours per week.

==Proposed Research Project==
===Enter Project Title here===

===General Information===
:Advisor: here
:Other research student collaborators: here
:Other Research Collaborators: here

===Proposal===

===Instruments to be used===

===References (2 minimum)===

===Research pledge===
I, Styles Bitchly, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.